Pellet machine



May 13, 1941. 2,241,546

S. T. EVENSTAD VET AL PELLET MACHINE Filed NOV. l2, 1938 4 Sheets-Sheet l famey.

May 13, 1941.

s.` T. EvENsTAD Erm.

PELLET MACHINE Filed Nov. 12, 1938 4 Sheets-Sheet 5 flaring May 13, 1941. v s. T. EvENsTAD-ETAL VV'PELLET MACHINE Filed Nov. 1K2, 1938 4 Sheets-Sheet 4- ai 74 b Patented May 13, 1941 UNITED 4s'rlrrl s l :PAT EN T oFricE- 2,241,546" f e f rLLE'rMAcmNEHT Sydney T. Evenstad, Alhambra, 'and Wlllianr'V Howard Clapp and William F. MaeGlashan, Jr.,

Pasadena, Calif. Application November ducing pellets, nodules and the like from moldable materials.

One of the principal chines is in forming suitable stock feed mixtures into pellets of -a proper size for consumption. In the pellet machines of which we are aware, how- 12, 193s, serial ivo. .240,103 Y Y 1o claims. (ci. lor-si This invention has-to do with devices for prof mg masnwhue the mash is in sospensioa inthe i mixer.r

uses of such pellet ma-V.

ever, by virtue of the slow passage of the ma' terlal through the machine, and consequent sub-y v thev pellets whereby 'they are composed of .thin

material, there is no uniformity of product.

Lack of simplicity in'construction and lack of facility for .easy assembling, disassembling, ad-` resulted in unsatisfactory performance of prior art devices.V Itis therefore our aim to effectively Fig. 1:

cure those and other shortcomings.v i Y While other objects 'and corresponding accomplishmentsare inherent in our invention, and will become obvious from thedescription of `lineaire-- i'erredadaptation which we shall hereinafter give,

a few of the more parwe shall specifically name ticular objects. i Y s We aim to provide a device of the character justment and controlof such devicesV have also' v,

e `Fig.` 311s Fig. 1:

described which is compact and easy to assemble..

and `disassemble for replacement andV repair .purposesand in which pellets of uniform size and consistency may be continuously and speedily produced.

Another object is to `provide-a'. 'device having relatively few moving parts which rotate inbelance about a main axis so that they exert a minif mum of radial pressure upon the bearings.`

Y Another object is to providejafpellet machine capable of rapidly forming hard, firm pellets while using a minimum of; pressure and without disintegrating the pellet forming material during the operation. i. y v

Another object is' to provide in such-a'machine a wide range of visible cutter adjustments and in which the cutters themselves move the formed pellets along paths leading tothe conveyor.

Another object is to provide a machine in which the operation of thepellet shearing members is visible from any position around the device.

Another object ls'to provide for the even,r.eill

Acient admixture of moisture witnihe pellet form.

Another object.v is to y provide .an yeasily coni trollable, adjustable and etjdcient means for feeding the mash materialto the mixing chamber.

Another object is torprovide a novel and eilicient meansof adjusting the impactar elements.

.Another object is to provide a' structurein which the principal moving partsfare assembled v .on a single verticallydisposed drivejshaft.

Another Objectis to provide means for forming laminations of material.

How theseand other objectsarelattained will `become obvious fromthefollowing detailedl description of l one presently preferred adaptation ofV our invention, for which purpose I shall make reference to the followingv drawings'. in which:

Fig.V 1 Ais a vertical-,medial sectionalview of Y the device;

Fig. 2 is an enlarged `sectionfonline v2.-,-2foi I Fig.1; Y i f anenlarged section on line 3-3 of Fig. .4' is an enlarged` section'on line I-l of Fig. 5 is a section on line 5--5 of Fig. `1; Fig 6.is a section on line B--B` of Fig. 5; I v Fig. 7 'is a section online of Fig. 5; v Fig.,8 is a section .on lineal-8 of AFigJi; rliig.'9 isa section on line 9--4 of Fig. 5i ,'Fig. 10 illustrates a plan of ja variational form of cutter. element; andl Fig. -11 is` a view on line II--il of Fig. 10. The base of the machine is comprised of channel Vmembers 5 on which `is secured base plate 6 by means of bolts 1. Orne `of the channel members 5 has an opening 8 to pass the drive belts 9.

The base plate B is provided with a central opena ing- I0,'fo`r the purpose to be described.

A circular housing member I 5 has a concave base portion I 6 which fits over opening I0 and which is secured to plate 8 bybolts i1. A bearing housing20'is secured to plate IB over opening Il) by bolts 2i. Housing 20 has a central shafts passing opening 22 and a' cylindrical projection from a power element not shown. The sheave Sli` 5 is secured to the drive shaft 3|by a hub 32, a

Vsheave cap 33 .beingsecured to the end of the shaft by bolt 3|, the hub being keyed to shaft 3| by key 32a. e ,v v

A collar26 is secured on shaft 3| immediately secured on the shaft by set screw 26a, and a split thrust collar 21 is mounted in the annular recess 28 in shaft 3|. A shaft supporting and dust pro:

tection collar 29 is secured to thrust collar 21 by set screw 28d. Y

vThe top 65 of housing I5 formsaV support 'for `the-'die40, the latter being la stationary ring die having vertically spaced, staggered rows of orifices 4| therethrough, the dies being secured Vto housing VI5 by tap bolts 43. While in the particular adaptation shown in the drawings we show eight rows of orifices 4|, it will be under- Vstood that the number and spacing may be varied.

The size oforlflces 4I determines the cross-sec- -tional Yarea of the pellets. I The inner face of the die is provided with an annular recess 44. which recess is of a width' substantially commensurate with the thickness of the impacting rollers 60,' 6|.

Housing-I5 lhastopV portionY 65 to which shaft bearing 69 is secured by tap bolts 66. Shaft 3| f has aftop annular flange 63, and betweenv the under face of said ange and the top of housing portion v65 arel provided labyrinth seals 61,68. kTo permit escapeof any mash'pr'condensate which might passthe seal 61, we provide'a num- "ber ofbreather'holes 10 through housing'por- 'tion65.`

n The-impactor unit (see Figs. 1, 5, 6, 1 and 8) is' carried on'drlve shaftilange 63 by'means of a pair of studs80. said studs being screwthreaded V.at their Alower ends into flangek 63 and'carrynuts :80av at their top ends,', the top"` portion of the y"studs being of reducedltliameter so as to pre-I sent fan annular shoulder 80h. The impactor unit includesa pairof'impactin'grv rollers 60, 6| rotatably mounted' bymeans of bearingunits n VQ|3,' 14a, upon vertical pins 13, 14, respectively.

`The impacting rollersare mounted between a toplcover plate and a bottom cover plate, the top cover plate being comprised of horizontally spaced vprised of spaced sections 82,V 83. 'I'he lower end of pin 13 is screwthreaded into lower plate section 82 and its upper end extends through top Y platel section 84 wherev it is'capped vby nut 86.

The lower ,end of pin 14 is screwthreaded into lower'plate section 83 and its upper end extends through; top-plate'section 85 where it is capped bynut 81. For protection oi"v bearings 13a, 14a,

' respectively, we provide multiple groove labyrinth seal members 13b,.13c, 14h, 14o; The inner companion' portlonof each. sealv member is secured toits impacting roller ,by'bolts 19 and the'outer fand bottom `cover platesv 82,

For adjusting lthe'impacting rollers with respect `to each other andV with respect to the die,

- above and bears against the bearing unit, being Y v As best shown in Fig. 5 a space is left around the 'top cover plate sections 84, 85 and the bottom cover plate sections 82, 83 so as to provide a mash receiving chamber 98 between the impactingv unit and the inner face of the die 40.

A mixer unit housing |00 is secured to a. base ring |0| at the top of the die 40 by three studs |04, said ring being in turn secured to the top ofdie 40,bytapboltsI01.

The mixer unit includes a hollow rotor ||0 having a flanged bottom which, as will be seen in Fig. 4, is narrower than the interior diameter of the housing |00 .to allow space ||2 f between two of its sides and the interior face of the housing for the passage of mash rto the impactor unit. 'The flange is secured to the top of studs 80 by the nuts 80a, so that, in the presently preferred form, it will rotate clockwise (as viewed in plan) with the impactor unit. The top portion ||5 of the rotor ||0 is substantially conical'to provide a feeder cone for passing an even flow of .the mash from the feeder element to be later described. 'I'he base portion ||5a of said conical topslightly overhangs side wall I|1 of the rotor so as to deliver the material to the mixer fata point intermediate the rotor and its housing '.wall.V A plurality of circumferentially y spaced, radially extending, mixing fingers ||'6 are secured -at one end in .part ||1 of rotor ||0, being preferably cast therein, which part I|1 is of larger diameter than ftheneck portion ||8.

Cast at one end into housing |00 and projectying inwardly so as'to allow fingers I I6 to pass therebetween, we provide a plurality of circumferentially spaced stationary ngers |20. As

shownY in Fig. 1, fingers |I6 are arranged in three vertically spaced `circumferential lrows around rotor portion |I1'and fingers |20 `are arranged `in two vertically spaced circumferential rows around the inner face of Vhousing |00; although,

. of course, the number,v of rows of ngers and the 1 number of lingers in each row are matters which sections 84,85 and 'thebottom'plate being commay be varied in particular cases.

. `As shown in Fig. 3, the housing |00 is composed of three segments I 2|, |22 and |23, which segy ments are secured together at the studs |04 by bolts |25. The housing is thus made in segments tofacilitate assembling and disassembling the de- Lvice for purposes of cleaning. y

. The feeder element V|35 comprises an outer circular casing |36 which has a bottom annular #flange |31 secured to the top ends of studs |04 Vby nuts'|04a. VAn annular yjacketportion |40 fprovides an annular steam chamberv |4| from portion-is Vheldin positionby bearing against' 1 Vthe'respective', top ,sa and as, as,

we provide 'a Dail'of adjustment screws-90, 9|, -V

one end ofA each screw having right-hand threads and the other end having left-hand 'threads1 Screw 9| is threaded at its respective end porf 'tions through hinge pins 92, 9 3 and screw 90 isV .threaded at its, 'respective` ends through hinge pins 94,195. kPins 92, 94'are'journa'lled at their 'reducedf ends in cover plate sections 82,` 84 and -pirns'9 3,95 are likewise journalled in coverplate sections 83, 85. The lower endn96 offeach of pins 92 and 95 extends downwardly throughY IJthe re-YV spective bottom-:coverrplate sections 82,' 83 and projects into a hole 91 provided in the top surface of drive shaft flange 63, to provide drive studs for the impacting unit.

which a plurality of jets |42 lead into the mixing chamber (see Fig. 2). While we have shown sixv a teen such jets, it will be understood that the-number may be varied if desired. A steam feed line |43, controlled by valve |44, leads to the steam chamber'.A from a steam supply, not shown. The

.feeder has an inner circular wall |50 which has an annular flange |5| near its top which restson inwardly projecting iiange portions |52 .of

outer casing |36. While any desirable number of flanges |52 may be utilized, we prefer to use three (only one of which is illustratedlin Fig. 1),

' their purpose being to support the inner wall |50 in spaced Vrelation to casing |36 Vto provide an- Vnular ventlspace |55 communicating from the mixing chamber to atmosphere to permit escape of any excess steam from the mixing chamber.

An adjustable feeder sleeve |51 is held in adjustable position between the outer casing |36 and inner wall |50 by'means of adjusting bolts |58 which pass through diagonally disposed slots `circumferentially ofthe ring |85. Ring |85 is 35 |59 through outer casing |36. The inner end of each of said boltsprojects into a socket |60 provided in the outer wall of the adjustable feeder sleeve |51, so that as the bolts ar'emovedalong `plate 245 andare guided into the outlet tube.

To 4prevent clogging of mash material between theV periphery of fdrive shaft flange .63 'and the theirY slots the sleeve is raised or lowered with respect to the conical top ||5 of therotcr',` to regulate the flow of mash from the feeder to the mixing chamber. While any desired numberoll-r sets of bolts |58 and slots |59 may be used, we

find three sets to be suitable. At least one of theV adjusting bolts |58 is'provided with alock nut innerface of annular housing portion 65, we make the flange 63 ofl slightly smaller diameter than l the interior diameter of the housing member 65 so as to leave a small clearance 250 therebetween,

. this clearance being covered by the annular cover plate 252 mounted-on the top face of ange 63.

` `Two diametrically opposite openings 254 (see Fig.

having a handle portion |62', while the remaining Y bolts may be provided with conventional lock v nuts |63.` We make this provision because, in

9i .are provided through plate 252 near its.

' periphery and a plow 256 is welded or is otherwise practice, one nut is usually sufficient-to retain .15 l -intothe groove provided by clearance 250 to scrapetherefrom any mash material that may the device in an adjusted position, so that the handle is used| to Vmake the adjustment while the remaining nuts |63 are left unlocked. Secured tothe top portion ||5 of the rotor by suitably secured Aat oneend to plate 252 adjacent' each' opening, and these plows extend'diagonally Vtend-"to collect therein. )inasmuch as housing portion 65 is stationary andthe plows 256 are sebolts |1| is a spider |10 whichfcarrie's agitating 20 'Cllle'd t0 the rotating P12-te 252. the material rides up the top face of the plows into the impacting fingers |12. These fingers rotate with the rotor and agitate the masli to facilitate evenness of feed. A hopper is mounted on thefeeder by means of its annular flange |16 resting upon annular flange |5I.

A plurality of pellet shearing blades |80 are secured by bolts |8| to a bracket |82, which bracket 4 is secured by bolts |84 to and rotates with ring |85. Bolts |84 are mounted in the annular T-slot |86 formed in ring |85, said slot having spaced 30.

enlargedopenings to pass the heads of bolts |84 into the slot. The blade-supporting brackets are thus mounted to provide for adjusting the lblades secured by screws |81 toa ring gear |90 whose teeth engage with pinion gear |92; An annular ring gear housing |93 hasan annular shoulder |94 which rests on an annularsholder |95 provided on the die centering ring |91, which latter Vring is secured. to housing `member by screws |98. A stationary pellet receiving platform 200, havinga downwardly disposed peripheral flange 20|, is secured to ring |91 by VscrewsY |98. Ro-

tating ring |85 has a downwardly disposed annular portion |85a which terminates inA an annular, horizontally disposed, pellet conveyor |855,

which conveyor rotates with the cutters and ring gear |90. Pinion gear |92 isY secured on and driven by pinion shaft 2|0, to the lower end of which is secured a pulley 2|| which-is driven by belt 2|2 from a pulley .2|5 secured on the drive shaft 3|. Shaft 2|0 is journalled in bearings 2|6 which are housed in. sleeve 2|1, the latterv sleeve being secured by bolts 2|9 to stationaryA 5 housingV member |93. l

A ring 230 extends around the stationary housing member |93 and is supported thereon bycirchamber to be then forced through the die orifices by the impacting rollers...

Asbest shown in Figs. 4, 5 and 6, there is a pair of flexible guide plates :d0 carried by the rotating impacting unit, each of said plates being secured by a bou' zel' to a bracketzsz, which bracket is greater than the orificed, area` of the die. j Inasmuch as the blades |80 are` supported on the brackets |82 carried by ring |85, which rotatesF in a counter-clockwise direction, the'blades move" overthe outer face ofthe die at 1the ends of the orifices, so that as the mash emerges from 0 scribed.

the orifices, the blades shear it of! 'into 'pellets 'which fall onto the stationary platform 200, 45.A from which' they are moved outwardly, by con-- tacting the diagonally' disposed front face of the shearing blades, until they drop' onto the rotating conveyor |b,` fromy which they are guided'` into the outlet tube 242 as before de- While the cross-sectional area of the pellets is determined by the cross-sectional area of the dle orices 4|, the length of the pellets 'isdetermined by the distance between the respective pellet shearing blades |80. In other words;

cumferentially spaced U-shaped projections 232 (typically four in number) whichare `formedoo integral with housing member |93 andthe .ring 230 andextend radially outwardly from said hous- I ing to-support the ring 23l|.` Annular groove 2.34 j,

is provided in the top face of lring 230 and into f cf the platform. An outlettube 242 extends out` 70 war'dly and downwardly from an openingj243 in guard ring240, and secured to ring 240 adjacent the right hand side of opening 243 is a stationary guide plate 245 which extends diagonally inwardly since the ,mash is continuously being extruded Vthrciugh the die orifices, the greater-fthe distance is between shearing plates, the greater will be the length of the. pellets.

In order to increase 'or-decrease the cross'- sectional area of the pellets, of course, it is necessary to changel the die elements, and ithas been found desirable that the length of the die orifices lshould be increased with any increase v, fin the cross-sectional area of those orifices, and this groove projects the downwardly disposed,,3g-.conversely they should be decreased in length as their crosshsectional area is decreased, so that when` another die is substituted-for a die on the machine, it" usually becomes necessary to adjust to wall |85a. Thus, as the platform |85b rotates,i75

the length of `the shearing blades to accord with thechanged thickness of the die. Therefore, as

f illustrated in Figs. V1() and 11, we have shown a modified form of shearing blade mounting and construction, which provides fora greater range of adjustability. `In this form the shearing blade 215 hasV two parallel rows of spaced bolt holes V21e and the blade is secured to semble plate 211 by means vvoi.' twofbolts 218, the plate 211 havlngf parallel slots 280 atits end to pass the bolts 219. Plate 211-is secured to the DQSt 285 by bolts -219and the angled retaining plate286.

Post 285 is Vadjustably secured to the rotating ring 288 (whichring is of the form andgmounting of Vring |85 heretofore described) by lbolt 281,11aving a head portion 288 andnut 289,

, which headis mounted in annular T-'slot.2 90, l which slot has enlarged portions 297| for passing a bolt head.

In operation the'mash material is placed-vin hopper |15,from which it moves by gravity into the feeder elementul35., By virtue of therrota- ,V table agitating ngers |12, the mash is uniformly fed from the ,feeder into vthe mixeraround the feeding cone ||5, the rate of feed vbeing controlledby adjustingthe-Yfeeder,sleeve |51 with 'respect tothe periphery of the cone inthe mannerhereinbefore described. -As the mash` is admixed by rotation, of themoving Yngers [I6 with respect to the stationarylngers |20, steam is injected into the mixture through jets |42 to add moisture. AThe. mixing'kflngers interpass at vya. relatively high speed soas to intimately and uniformly adniix the. molecules of vapor with the y mash in suspension. 'Ihis effects a complete dispersion without disintegration of the mash or .destruction of its inherent chemical qualities. Fmmmthe vmixer the mash passes between .the

sidesv of flangel and the inner wall ofY ring .IUIV and around top platersectionsy 84, 85 Vinto the impacting'chamber. The impacting Arollers of pellet, from a thin wafer toa pellet several inches 'Y long. After being thus` cut, they .are moved over thek outer edge `offthe stationary platform 200,1 by,` action of theslanted shearing Vblades which'are rotated around thedie. V'I'he pellets thence drop onto the rotating pellet Ycon-y veyor |8517 which, rotating in a counter-'clockwise direction, moves thepellets against the inclinedplate 2,45, which guides them into outlet 1 'tube 242. Y

InasmuchV asV the impactarY unit lis constrained to move within theringdie, which is concentric .withmthe shaft `3| and bearings,V 25 and 69, and inasmuch-as the impacting rollers are oppositely disposed; the forces exerted bythe two rollers against the inner face of the ring die'are in balance and do not exert any radial pressure against the bearings Bil/and 25.Y Y I From the foregoing descriptionofoperation .and structure, it will of course v.be.understood .that the force acting to fmove the mash material towards and through the die orices is brought about bythe centrifugal action of the rollers, aided, asrmay be necessary, by additional pressuremade possible by adjusting the impacting rollers towards the die b`y adjustment screws y9|) andl. Consequently, the amount .of addi- Y tionalA "pressure,thusv acquiredgwill varyV with the speedof rotation of the impacting unit 'as well as with thecharacter of themash being handled. .The screwneans for adjustment has defi# nite advantages over, for instance, a flexible spring means of adjustment, inrthat it can position the impactors slightly away from the inner face of the die ,to allow fora thin spread of mash between the impactor surface of the rollers `and theinner face of the die. Such adjustment screws also act to prevent any rebound of the impactingrollers.

We have described the impacting rollersas .-preferablyrotating clockwise and the pellet shearing members as rotating counter-clockwise,

but it will be understood, of course,l that those directions may be reversed if desired. l

While, for the purpose Vof making our invention'understood,we have resorted to various specific rdetails of structure and association of parts, it will be obvious that, various modifications may be made without departing from the scope of outer face, an impacting element comprising spacedV pairs of parallel mounting plates, a spacer Vpin for spacing apart the plates of each pair, an impacting roller rotatably mounted between each pair of plates, an adjustment screw cooperating with said spacer pins to move said vspaced pairs of plates towards and away from each other. 4

2.. In a device of the class described having a e stationary die ring member withk material moldof plates.

,withfthe die ring, blade ing orices extending from its inner face to its outer,` face, an impacting element comprising spaced pairs of parallel mounting plates, a pair of hinge pins between the plates of each pair, impacting rollers, one of said rollers being rotatably mounted between each pair of plates and each of said rollers having an impacting s'urface coplanar with the inner face of the die ring, and a pairof adjustment screws, each having right hand threads at one.4 end and left hand threads at Vits other end, each of said screws being threaded'at one endy into one of the hinge pins of one Apair of plates andy threaded at its other end into one of the-hinge pins of the other pair *3.111 apparatus for forming pellets and the like from a moldable material, a stationary die ring member having material molding orifices extending from its inner face to its outer face,

' roller meansfor extruding material through said orifices, cutter meansfor cutting the extruded material into pellets and the like, said last men- -tioned means including a cutter mounting ring rotatably mountedaround and concentric with e the die ring, shearing blades, each of which shearing-blades has one end mounted on the mounting ring and its other end extending diagonally inwardly towards the outer face of the die ring,

means for mounting the shearing blades on the mounting ring, a drive member for rotating said roller means in one direction and a drive member for rotating the cutter mounting ring 'and its carried cutters in the opposite direction.

4. In apparatus for forming pellets and the ylike from a moldable material, a stationary die ring having pellet molding orices extending from its inner face to its outer face, means within 'the diering for extruding material through said orices, and means for cutting the material into pellets as it emerges from said orifices, said last mentioned means comprising a cutter carrying ring rotatably mounted around and concentric carrying posts secured Vto and spaced apart circumferentially of the ring,

a shearing blade secured to each of said posts, each of said blades having a plurality of bolt passing holes spaced apart longitudinally of the y extrude material through said orifices, a cutter element movable circumferentially of the die periphery for shearing the extruded material as it emerges from the oric'es, and means for rotating the cutter element, said last mentioned means rotating the cutter element in a direction reverse to and at a speed diiering from the speed of rotation of. the impacting member..

6. An apparatus of the class described including a base, a vertically disposed drive shaft journalledin the base, said shaft presenting a top annular ange, an impacting element concentrically of and secured to the top surface of the ange, said base presenting a table portion coplanar with and .against which the undersurface of the iiange rotates, means for providing seals between the table and flange which includes a circular raised portion on the table and a lcircular recess in the undersurface of the ange into which said raised portion projects, and a horizontally disposed stationary ring die secured tothe table and surrounding the impacting element.

'7. The device of claim 6 which includes a drainage hole extending through said table beneath said flange.

8, I'n apparatus of the class described having a base, a stationary ring die mounted horizontally on the base, material molding orifices extending carrying platform rotatably mounted on the base orices, a cutter mounting-ring rotatably mounted on the base around and concentric of the ring die, and cutter blades cooperating with the exterior face of the ring die to shear said material as it passes through said orifices, said cutter blades beingmounted on and circumferentialiy adjustable along said cutter mounting ring.

9 In a pellet forming apparatus, a base, a stationary ring die horizontally mounted on the base, said ring die having pellet forming orifices extending radially therethrough, means for extruding pellet forming material through said orices, vcutters for shearing said material into pellets as it emerges from said orifices, means for collecting'said sheared pellets including a pellet and being rotatable around the ring die, and a stationary collecting arm secured to the base and extending across the top of said platform in position to' engage the pellets carried on said platform.

10. In apparatus of the class described having a base, a stationary ring die mounted horizontally on the base, material molding orices extending radially through the ring die, means in theV ring die for extruding material outwardly through said orifices, a cutter mounting ring rotatably mounted on the base around and con- Y centric of the ring die, cutter blades cooperating with the exterior face of the ring die to shear said material as it passes through said orifices,

- and means for adjustably mounting said cutter radially through the ring die, means in the`ring die for extruding material outwardly through said blades on said cutter mounting ring including an annular T slot in the cutter mounting ring, blade supporting posts, means for securing the respective blades to the upper ends of the respective posts, .bolts for securing the lower end of each of the posts to the cutter mounting ring, each bolt having a headed portion which is slidably mounted in" the slot, and a threaded nut on its opposite end for adjustably securing said bolt in any selected position along said slots.

SYDNEY T. EVENSTAD;

WM. HOWARD CLAPP.

W'JLLIAM F. MAcGLASHAN, Jn. 

